DE2734980C3 - Vertical deflection circuit for a television receiver - Google Patents

Description

The invention relates to a vertical deflection circuit

for a television receiver as defined in the preamble of claim 1.

In modern vertical deflection technology, only low-voltage vertical deflection circuits are predominantly used

is a preliminary stage in the form of a circuit consisting of a sawtooth generator and a driver circuit, the output of which is connected to a linear output amplifier. In a known IC, the sawtooth generator has the individual components: oscillator, back coupling generator, voltage regulation circuit on.

The generator is powered by the vertical sync pulses

synchronized so that according to the existing

Image change frequency the vertical deflection takes place During the trace time, a

time-linear sawtooth-shaped deflection current is generated, which runs slightly S-shaped during operation and to the Compensation for possible tangent errors contributes. The tension is the same during the envelope run Like the Aölenkstrom, it is linear in time. During the In return, however, the voltage is proportional to the current rate of change of the deflection current, so that a noticeable increase in tension occurs during the kickback of the return to the vertical output amplifier is higher Operating voltage can be applied to the ramp-down time to be observed.

In known arrangements, for this purpose, the applied operating voltage is almost doubled by means of a voltage doubler circuit increased, although the actual increase in voltage must be considerably less. ILj is therefore mandatory necessary to equip the vertical amplifier with expensive voltage-proof components in the output stage. Of the Use of the doubler circuit of known type has also has the disadvantage that relatively high charge and Reloading losses occur when the voltage is increased. When applying the higher operating voltage During the outward and return movement, the output amplifier experiences a high power loss during the outward movement Generate the form of heat that must be dissipated through appropriately designed cooling plates.

The invention is based on the object of conceiving a low-power vertical deflection circuit, which the identified disadvantages of the known Schaltun gen does not have

The object is achieved according to the invention by the im Characteristics of claim 1 given teaching solved An advantageous development of the invention is shown in Claim 2 described, which consists in that the

anyway for optimal operation of the preliminary stage (sawtooth generator with driver circuit) higher operating voltage is used simultaneously as operating voltage for the power amplifier during the vertical return. This is possible because the operating voltage of the preliminary stage is generally only approx. 10 V higher than that of the operating voltage of the output stage during the trace, the value of which is approx. 25 V for low-voltage vertical deflection circuits. When using a

Voltage doubler of the known type is the Operating voltage of the output stage during vertical deceleration approx. 50 V. By connecting the operating voltage of the pre-stage, however, it is only approx 32 to 35 V, by applying the adapted operating voltage, the losses are minimal, so that an optimal operating condition of the deflection circuit is given. Furthermore, it does not become extremely high Requirements placed on the dielectric strength of the output stage by the provided according to claim 5 DC voltage decoupling of the output stage from the pre-stage or the AC coupling the output stage to the pre-stage, on the one hand the saturation voltage of the pre-stage and on the other hand the relatively large fluctuations in the operating point of the pre-stage do not affect the voltage level of the output stage. Component-related deviations in the preliminary stage therefore do not need to be caused by corresponding ones at the output stages Raising the operating voltage potential to be compensated. By taking place in the same way AC coupling of the changeover switch to the signaling circuit of the pre-stage or a separate one Preliminary stage, a direct current decoupling is carried out and at the same time the foundation created that when using a transistor switch, the voltage potential at the base of the The transistor is increased by charging the coupling capacitor and applying the control signal in such a way that that the transistor switches on

The invention is explained in more detail below on the basis of an exemplary embodiment shown in the figure

In the figure, a vertical deflection circuit is shown in the form of a block diagram in a much simplified form, which consists of a preliminary stage 1 with a sawtooth generator and an integrated driver circuit which is connected to an operating voltage source U _B j . This stage is synchronized by vertical synchronization signals 2, which are at the input A. The structure of the generator part contained in preliminary stage 1 will not be dealt with in more detail here

- The Verttkalablenk-Scbaltkrejs TDA 1170 from Fa, SGS, Ates is, for example, such a, output stage 1 is connected via a capacitor 3 at an end amplifier 4, the output of which is connected to a deflection coil 5 of the deflector of the picture tube , to which a base resistor 6 is connected in series. In the preliminary stage, a circuit arrangement is integrated which generates a control signal as a function of the vertical synchronization pulse 2 in such a way that such pulses are emitted at the moment the kickback is initiated. However, as described in claim 3, the pulses can also be generated by comparing a sawtooth voltage at the base point resistor 6 of the deflection coil 5 with the sawtooth voltage of the sawtooth generator. The control signal 7 causes a charge reversal of the capacitor 8, which is charged via a voltage divider consisting of resistors 9 and 10 and is connected to the base lead of a switching transistor Sl. The switching transistor 11 is connected to its collector and via the voltage divider 9,10 to the voltage source Ub ι connected and the emitter with &. ~ L \ power supply input of the power amplifier4. Both switching transistors are npn-doped. A voltage source Ub t is also connected to the operating voltage input of the power amplifier 4 via a diode 12, which is always switched on The voltage Ub 2 is thus at the power supply input of the power amplifier 4. Since the voltage source Ub 2 has a higher voltage than the voltage source Ub u , the diode 12 is switched off during this process, so that the voltage source Ub ι is switched off. The voltage of the voltage source Ub 2 is present at the power supply input of the output amplifier 4, from the moment the kickback is initiated.

1 sheet of drawings

Claims (5)

Patent claims: 1. Vertical deflection for> a television receiver for generating a sawtooth Vertical deflection current in the vertical deflection coils of the deflection unit of the picture tube, consisting of a sawtooth generator synchronized by a vertical oscillator, a driver circuit and a linear power amplifier, the output of which is connected to the deflection coils, characterized in that an electronic switch is provided via which at the moment of the Initiation of the vertical backstroke during the Line trace connected to the power amplifier is switched off and one second operating voltage source is switched on, the voltage value of which is at least so large that the vertical return takes place in the defined return time, the changeover switch being keyed by a control signal derived from the vertical return signal is synchronized 2. Vertical deflection circuit according to claim 1, characterized in that the sawtooth generator circuit is connected to a voltage source which has a higher voltage value as the voltage source connected to the output amplifier during vertical tracking, and that the operating voltage source connected to the output amplifier during the run-out via the switch at the moment of Initiation of the kickback is switched off and the voltage source with the higher voltage value the sawtooth generator and driver circuit as a common operation, b.sspanrvjigsquelle switched on will. 3. Vertical deflection ^ ach claim 1 or 2, characterized in that the control signal for controlling the changeover switch by comparison the sawtooth voltage in front of the power amplifier with that at the base resistance of the deflection coil tapped voltage in a comparison circuit depending on the time of Exceeding the voltage tapped off by the deflection coil is generated as a result of the voltage increase caused by the rate of change of current in the deflection coil above the value of the reference voltage. 4. Vertical deflection circuit according to one of the preceding claims, characterized by a changeover switch with the following circuit features known per se: e3in from the control signal base-controlled switching transistor (11) (npn-doped) switches the higher operating ft / e 2) to the output stage (4), a diode (12) connected in series to the first operating voltage source in the forward direction switches when the higher operating voltage is applied (Ub 1) to the power supply input of the power amplifier stage (4) from the first operating voltage source (Ub ι). 5. Vertical deflection circuit according to claim 4, characterized in that the sawtooth generator circuit with driver circuit is switched on to the power amplifier via a capacitor and the control circuit or driver circuit for controlling the switch is alternately coupled, the coupling capacitor (8) via a voltage conductor (9) , 10) from the second voltage source (Ub 2) is charged to a defined voltage value and by applying the control signal (7) the voltage is increased in such a way that the changeover switch switches through the higher operating voltage (Ub 2).